NAME

signal.h - signals

SYNOPSIS

#include<signal.h>

DESCRIPTION

Some of the functionality described on this reference page extends the
ISO C standard. Applications shall define the appropriate feature test
macro (see the System Interfaces volume of IEEE Std 1003.1-2001,
Section 2.2, The Compilation Environment) to enable the visibility of
these symbols in this header.
The <signal.h> header shall define the following symbolic constants,
each of which expands to a distinct constant expression of the type:
void(*)(int)
whose value matches no declarable function.
SIG_DFL
Request for default signal handling.
SIG_ERR
Return value from signal() in case of error.
SIG_HOLD
Request that signal be held.
SIG_IGN
Request that signal be ignored.
The following data types shall be defined through typedef:
sig_atomic_t
Possibly volatile-qualified integer type of an object that can
be accessed as an atomic entity, even in the presence of
asynchronous interrupts.
sigset_t
Integer or structure type of an object used to represent sets of
signals.
pid_t As described in <sys/types.h> .
The <signal.h> header shall define the sigevent structure, which has at
least the following members:
intsigev_notify Notification type.
intsigev_signo Signal number.
unionsigvalsigev_value Signal value.
void(*)(unionsigval)sigev_notify_function Notification function.
(pthread_attr_t*)sigev_notify_attributes Notification attributes.
The following values of sigev_notify shall be defined:
SIGEV_NONE
No asynchronous notification is delivered when the event of
interest occurs.
SIGEV_SIGNAL
A queued signal, with an application-defined value, is generated
when the event of interest occurs.
SIGEV_THREAD
A notification function is called to perform notification.
The sigval union shall be defined as:
intsival_int Integer signal value.
void*sival_ptr Pointer signal value.
This header shall also declare the macros SIGRTMIN and SIGRTMAX, which
evaluate to integer expressions, and specify a range of signal numbers
that are reserved for application use and for which the realtime signal
behavior specified in this volume of IEEE Std 1003.1-2001 is supported.
The signal numbers in this range do not overlap any of the signals
specified in the following table.
The range SIGRTMIN through SIGRTMAX inclusive shall include at least
{RTSIG_MAX} signal numbers.
It is implementation-defined whether realtime signal behavior is
supported for other signals.
This header also declares the constants that are used to refer to the
signals that occur in the system. Signals defined here begin with the
letters SIG. Each of the signals have distinct positive integer values.
The value 0 is reserved for use as the null signal (see kill()).
Additional implementation-defined signals may occur in the system.
The ISO C standard only requires the signal names SIGABRT, SIGFPE,
SIGILL, SIGINT, SIGSEGV, and SIGTERM to be defined.
The following signals shall be supported on all implementations
(default actions are explained below the table):
SignalDefaultActionDescription
SIGABRT A Process abort signal.
SIGALRM T Alarm clock.
SIGBUS A Access to an undefined portion of a
memory object.
SIGCHLD I Child process terminated, stopped,
or continued.
SIGCONT C Continue executing, if stopped.
SIGFPE A Erroneous arithmetic operation.
SIGHUP T Hangup.
SIGILL A Illegal instruction.
SIGINT T Terminal interrupt signal.
SIGKILL T Kill (cannot be caught or ignored).
SIGPIPE T Write on a pipe with no one to read it.
SIGQUIT A Terminal quit signal.
SIGSEGV A Invalid memory reference.
SIGSTOP S Stop executing (cannot be caught or
ignored).
SIGTERM T Termination signal.
SIGTSTP S Terminal stop signal.
SIGTTIN S Background process attempting read.
SIGTTOU S Background process attempting write.
SIGUSR1 T User-defined signal 1.
SIGUSR2 T User-defined signal 2.
SIGPOLL T Pollable event.
SIGPROF T Profiling timer expired.
SIGSYS A Bad system call.
SIGTRAP A Trace/breakpoint trap.
SIGURG I High bandwidth data is available at a
socket.
SIGVTALRM T Virtual timer expired.
SIGXCPU A CPU time limit exceeded.
SIGXFSZ A File size limit exceeded.
The default actions are as follows:
T Abnormal termination of the process. The process is terminated
with all the consequences of _exit() except that the status made
available to wait() and waitpid() indicates abnormal termination
by the specified signal.
A Abnormal termination of the process.
Additionally, implementation-defined abnormal termination
actions, such as creation of a core file, may occur.
I Ignore the signal.
S Stop the process.
C Continue the process, if it is stopped; otherwise, ignore the
signal.
The header shall provide a declaration of structsigaction, including
at least the following members:
void(*sa_handler)(int) Pointer to a signal-catching function or one of the macros
SIG_IGN or SIG_DFL.
sigset_tsa_mask Set of signals to be blocked during execution of the signal
handling function.
intsa_flags Special flags.
void(*sa_sigaction)(int,siginfo_t*,void*)
Pointer to a signal-catching function.
The storage occupied by sa_handler and sa_sigaction may overlap, and a
conforming application shall not use both simultaneously.
The following shall be declared as constants:
SA_NOCLDSTOP
Do not generate SIGCHLD when children stop
or stopped children continue.
SIG_BLOCK
The resulting set is the union of the current set and the signal
set pointed to by the argument set.
SIG_UNBLOCK
The resulting set is the intersection of the current set and the
complement of the signal set pointed to by the argument set.
SIG_SETMASK
The resulting set is the signal set pointed to by the argument
set.
SA_ONSTACK
Causes signal delivery to occur on an alternate stack.
SA_RESETHAND
Causes signal dispositions to be set to SIG_DFL on entry to
signal handlers.
SA_RESTART
Causes certain functions to become restartable.
SA_SIGINFO
Causes extra information to be passed to signal handlers at the
time of receipt of a signal.
SA_NOCLDWAIT
Causes implementations not to create zombie processes on child
death.
SA_NODEFER
Causes signal not to be automatically blocked on entry to signal
handler.
SS_ONSTACK
Process is executing on an alternate signal stack.
SS_DISABLE
Alternate signal stack is disabled.
MINSIGSTKSZ
Minimum stack size for a signal handler.
SIGSTKSZ
Default size in bytes for the alternate signal stack.
The ucontext_t structure shall be defined through typedef as described
in <ucontext.h>.
The mcontext_t type shall be defined through typedef as described in
<ucontext.h>.
The <signal.h> header shall define the stack_t type as a structure that
includes at least the following members:
void*ss_sp Stack base or pointer.
size_tss_size Stack size.
intss_flags Flags.
The <signal.h> header shall define the sigstack structure that includes
at least the following members:
intss_onstack Non-zero when signal stack is in use.
void*ss_sp Signal stack pointer.
The <signal.h> header shall define the siginfo_t type as a structure
that includes at least the following members:
intsi_signo Signal number.
intsi_errno If non-zero, an errno value associated with
this signal, as defined in <errno.h>.intsi_code Signal code.
pid_tsi_pid Sending process ID.
uid_tsi_uid Real user ID of sending process.
void*si_addr Address of faulting instruction.
intsi_status Exit value or signal.
longsi_band Band event for SIGPOLL.
unionsigvalsi_value Signal value.
The macros specified in the Code column of the following table are
defined for use as values of si_code that are signal-specific or non-
signal-specific reasons why the signal was generated.
SignalCodeReason
SIGILL ILL_ILLOPC Illegal opcode.
ILL_ILLOPN Illegal operand.
ILL_ILLADR Illegal addressing mode.
ILL_ILLTRP Illegal trap.
ILL_PRVOPC Privileged opcode.
ILL_PRVREG Privileged register.
ILL_COPROC Coprocessor error.
ILL_BADSTK Internal stack error.
SIGFPE FPE_INTDIV Integer divide by zero.
FPE_INTOVF Integer overflow.
FPE_FLTDIV Floating-point divide by zero.
FPE_FLTOVF Floating-point overflow.
FPE_FLTUND Floating-point underflow.
FPE_FLTRES Floating-point inexact result.
FPE_FLTINV Invalid floating-point operation.
FPE_FLTSUB Subscript out of range.
SIGSEGV SEGV_MAPERR Address not mapped to object.
SEGV_ACCERR Invalid permissions for mapped object.
SIGBUS BUS_ADRALN Invalid address alignment.
BUS_ADRERR Nonexistent physical address.
BUS_OBJERR Object-specific hardware error.
SIGTRAP TRAP_BRKPT Process breakpoint.
TRAP_TRACE Process trace trap.
SIGCHLD CLD_EXITED Child has exited.
CLD_KILLED Child has terminated abnormally and did
not create a core file.
CLD_DUMPED Child has terminated abnormally and
created a core file.
CLD_TRAPPED Traced child has trapped.
CLD_STOPPED Child has stopped.
CLD_CONTINUED Stopped child has continued.
SIGPOLL POLL_IN Data input available.
POLL_OUT Output buffers available.
POLL_MSG Input message available.
POLL_ERR I/O error.
POLL_PRI High priority input available.
POLL_HUP Device disconnected.
Any SI_USER Signal sent by kill().
SI_QUEUE Signal sent by the sigqueue().
SI_TIMER Signal generated by expiration of a
timer set by timer_settime().
SI_ASYNCIO Signal generated by completion of an
asynchronous I/O request.
SI_MESGQ Signal generated by arrival of a message
on an empty message queue.
Implementations may support additional si_code values not included in
this list, may generate values included in this list under
circumstances other than those described in this list, and may contain
extensions or limitations that prevent some values from being
generated. Implementations do not generate a different value from the
ones described in this list for circumstances described in this list.
In addition, the following signal-specific information shall be
available:
SignalMemberValue
SIGILL void*si_addrAddressoffaultinginstruction.SIGFPESIGSEGVvoid*si_addrAddressoffaultingmemoryreference.SIGBUSSIGCHLDpid_tsi_pidChildprocessID.intsi_statusExitvalueorsignal.uid_tsi_uidRealuserIDoftheprocessthatsentthesignal.SIGPOLLlongsi_bandBandeventforPOLL_IN,POLL_OUT,orPOLL_MSG.
For some implementations, the value of si_addr may be inaccurate.
The following shall be declared as functions and may also be defined as
macros:
void(*bsd_signal(int,void(*)(int)))(int);intkill(pid_t,int);intkillpg(pid_t,int);intpthread_kill(pthread_t,int);intpthread_sigmask(int,constsigset_t*,sigset_t*);intraise(int);intsigaction(int,conststructsigaction*restrict,structsigaction*restrict);intsigaddset(sigset_t*,int);intsigaltstack(conststack_t*restrict,stack_t*restrict);intsigdelset(sigset_t*,int);intsigemptyset(sigset_t*);intsigfillset(sigset_t*);intsighold(int);intsigignore(int);intsiginterrupt(int,int);intsigismember(constsigset_t*,int);void(*signal(int,void(*)(int)))(int);intsigpause(int);intsigpending(sigset_t*);intsigprocmask(int,constsigset_t*restrict,sigset_t*restrict);intsigqueue(pid_t,int,constunionsigval);intsigrelse(int);void(*sigset(int,void(*)(int)))(int);intsigsuspend(constsigset_t*);intsigtimedwait(constsigset_t*restrict,siginfo_t*restrict,conststructtimespec*restrict);intsigwait(constsigset_t*restrict,int*restrict);intsigwaitinfo(constsigset_t*restrict,siginfo_t*restrict);
Inclusion of the <signal.h> header may make visible all symbols from
the <time.h> header.
Thefollowingsectionsareinformative.

COPYRIGHT

Portions of this text are reprinted and reproduced in electronic form
from IEEE Std 1003.1, 2003 Edition, Standard for Information Technology
-- Portable Operating System Interface (POSIX), The Open Group Base
Specifications Issue 6, Copyright (C) 2001-2003 by the Institute of
Electrical and Electronics Engineers, Inc and The Open Group. In the
event of any discrepancy between this version and the original IEEE and
The Open Group Standard, the original IEEE and The Open Group Standard
is the referee document. The original Standard can be obtained online
at http://www.opengroup.org/unix/online.html .